High-resolution electronic spectroscopy of buffer-gas-cooled metal-phthalocyanines(2024-09-01) [DOI][Othres link]
Analysis on high-resolution spectrum of the S1–S0 transition of free-base phthalocyanine(2024-04-14) [DOI]
The pressure effect on the line profiles observed in the ν1 + ν3 band of acetylene: Revisited(2023-08) [DOI][Web of Scientce]
Noise characteristics of a polarization-duplex dual-comb fiber laser based on a single gain fiber(2023-07) [DOI]
Doppler-free Spectroscopy of Buffer-Gas-Cooled Calcium Monohydroxide(2023-05) [DOI][Web of Scientce]
Measurement of Doppler effects in a cryogenic buffer-gas cell(2023-04) [DOI][Web of Scientce]
High-resolution spectroscopy of buffer-gas-cooled phthalocyanine(2022-11) [DOI][Web of Scientce]
Low-J Transitions inA2Π (0, 0, 0)- X2Σ+ (0, 0, 0) Band of Buffer-gas-cooled CaOH(2022-09-10) [DOI][Web of Scientce]
Absolute frequency measurement of the 3ν1 band of N2O with comb-locked rapid scan spectroscopy using a multi-pass cell(2022-01-07) [DOI][Web of Scientce]
Accurate transition frequency list of the nu(3) band of methane from sub-Doppler resolution comb-referenced spectroscopy (vol 30, pg 1027, 2013)(2019-04-01) [DOI][Web of Scientce]
Comb-resolved spectroscopy with immersion grating in long-wave infrared(2019-02-04)
Direct frequency comb spectroscopy with an immersion grating(2019) [DOI][Web of Scientce]
Rotationally-resolved infrared frequency comb spectroscopy of the C60 fullerene(2018-08) [Web of Scientce]
Comment on "Ortho-Para-Dependent Pressure Effects Observed in the Near Infrared Band of Acetylene by Dual-Comb Spectroscopy" Reply(2017) [DOI][Web of Scientce][Othres link]
Generation of a frequency comb spanning more than 3.6 octaves from ultraviolet to mid infrared(2016-09) [DOI][Web of Scientce]
Ortho-Para-Dependent Pressure Effects Observed in the Near Infrared Band of Acetylene by Dual-Comb Spectroscopy(2016-09) [DOI][Web of Scientce]
Mid-Infrared Frequency-Agile Dual-Comb Spectroscopy with Doppler-Limited Resolution(2016) [Web of Scientce]
Sub-Doppler resolution mid-infrared spectroscopy using a difference-frequency-generation source spectrally narrowed by laser linewidth transfer(2015-12) [DOI][Web of Scientce]
Ultra-broadband dual-comb spectroscopy across 1.0-1.9 mu m(2015-08) [DOI][Web of Scientce]
Visible to Mid-Infrared Frequency Comb Generation Using a Waveguide PPLN(2015) [Web of Scientce]
Hyperfine-resolved transition frequency list of fundamental vibration bands of (HCl)-Cl-35 and (HCl)-Cl-37(2014-12) [DOI][Web of Scientce]
Design of cavity-enhanced absorption cell for reducing transit-time broadening(2014-09) [DOI][Web of Scientce]
Operation of an optically coherent frequency comb outside the metrology lab(2014-03) [DOI][Web of Scientce]
Spectroscopy of Yb-171 in an optical lattice based on laser linewidth transfer using a narrow linewidth frequency comb(2013-04) [DOI][Web of Scientce]
Accurate transition frequency list of the nu(3) band of methane from sub-Doppler resolution comb-referenced spectroscopy(2013-04) [DOI][Web of Scientce]
Accurate Frequency Measurement of the v(3) Band of Methane from Sub-Doppler Resolution Comb-Referenced Spectroscopy(2013) [Web of Scientce][Othres link]
A novel frequency control scheme for combreferenced sensitive difference-frequencygeneration spectroscopy(2013) [DOI][Web of Scientce][PubMed]
Modulation-free laser frequency stabilization to a saturated sub-Doppler spectral line in a transversal magnetic field(2012-09) [DOI][Web of Scientce]
Narrow linewidth comb realized with a mode-locked fiber laser using an intra-cavity waveguide electro-optic modulator for highspeed control(2012-06) [DOI][Web of Scientce]
Toward an optical frequency comb with relative frequency uncertainty at 10(-21)-level(2012) [Web of Scientce][Othres link]
Absolute frequency list of the v(3)-band transitions of methane at a relative uncertainty level of 10(-11)(2011-11) [DOI][Web of Scientce]
All-fiber-based frequency comb with an intra-cavity waveguide electro-optic modulator(2010) [Web of Scientce][Othres link]
A new clock laser system for an Yb optical lattice clock using a fibre-based frequency comb stabilized to a narrow linewidth laser at 1064 nm(2010) [DOI][Web of Scientce][Othres link]
